1. Field of the Invention
The present invention relates generally to a fan salt-fog-resistant structure and a fan frame thereof, and more particularly to a fan salt-fog-resistant structure and a fan frame with the fan salt-fog-resistant structure, which can prevent salt fog from crystallizing to form sediments in the fan. Therefore, the lifetime of the fan can be prolonged.
2. Description of the Related Art
The cooling fan has been more and more widely applied to various fields including CPU of an electronic apparatus, server, power supply, communication chassis, communication base station, etc. In some cases, the cooling fan is used in a severe environment such as a moist environment or a salt fog environment. When the fan operates, the airflow will flow through the fan blades and the hub to form an eddy on the bottom of the fan frame. In the case that the fan is positioned in a severe environment, the salt fog may crystallize between the hub and the fan blades. In the case that the fan is not provided with a moisture-proof and salt-fog-resistant structure, the moisture and salt fog will infiltrate into the internal stator assembly and the bearing or even the circuit board to corrode these components. As a result, the lifetime of the fan will be shortened.
A conventional cooling fan generally includes a stator assembly, a rotor assembly, a circuit board, a fan impeller and a fan frame. In order to keep the fan normally operating in the severe environment, it is necessary to provide a moisture-proof and salt-fog-resistant structure for the fan to avoid corrosion of the internal components of the fan. Conventionally, the stator assembly and the circuit board are fully enclosed in a sealant material to prevent the moisture and salt fog from infiltrating into the stator assembly and the circuit board so as to avoid damage of the fan. The sealant can effectively avoid infiltration of the moisture and salt fog. However, the state assembly and the circuit board are totally enclosed in the sealant material so that it is hard to dissipate the heat. As a result, the heat will accumulate to cause rise of temperature.
According to the above, the conventional fan anti-corrosion structure has the following shortcomings:
1. The lifetime of the fan is shortened.
2. The heat is likely to accumulate in the fan to cause rise of temperature.
3. The heat dissipation efficiency is lowered.
It is therefore a primary object of the present invention to provide a fan salt-fog-resistant structure and a fan frame with the fan salt-fog-resistant structure, which can prevent salt fog from crystallizing to form sediments on the fan frame. By means of the fan salt-fog-resistant structure, the lifetime of the fan is prolonged.
To achieve the above and other objects, the fan salt-fog-resistant structure of the present invention includes a base seat and at least one flow guide body. The base seat has a bearing cup perpendicularly extending from the base seat. Multiple connection bodies outward extend from the base seat. The flow guide body is disposed at a junction between the base seat and the connection bodies. The fan frame includes a main body having a first open side and a second open side and a flow passage defined therebetween. One end of the connection body is connected with the second open side of the main body. When airflow entraining moisture and salt fog flows through the junction between the base seat and the connection bodies, the flow guide body serves to guide the airflow and prevent the airflow from forming eddy, whereby the salt fog entrained by the airflow will not crystallize to form sediments at the junction between the base seat and the connection bodies. Therefore, the lifetime of the fan is prolonged.
In conclusion, the present invention has the following advantages:
1. The lifetime of the fan is prolonged.
2. The flow guide body serves to guide the airflow and prevent the airflow from forming eddy, whereby the salt fog entrained by the airflow will not crystallize to form sediments.
The structure and the technical means adopted by the present invention to achieve the above and other objects can be best understood by referring to the following detailed description of the preferred embodiments and the accompanying drawings, wherein:
Please refer to
The base seat 11 has a bearing cup 111 perpendicularly extending from one face of the base seat 11 in a direction away from the base seat 11. Multiple connection bodies 112 outward extend from the base seat 11.
The flow guide body 12 is disposed at a junction between the base seat 11 and the connection bodies 112.
The connection bodies 112 are fan static blades or ribs. In this embodiment, the connection bodies 112 are, but not limited to, fan static blades for illustration purposes only.
Each connection body 112 has a first connection end 1121 and a second connection end 1122. The first connection end 1121 is connected with the base seat 11. The flow guide body 12 is disposed at the junction between the base seat 11 and the first connection end 1121 on an outer circumference of the base seat 11.
Please now refer to
The main body 3 has a first open side 31 and a second open side 32 and a flow passage 33 defined between the first and second open sides 31, 32.
The base seat 11 has a bearing cup 111 perpendicularly extending from one face of the base seat 11. Multiple connection bodies 112 outward extend from the base seat 11. Each connection body 112 has a first connection end 1121 and a second connection end 1122. The first connection end 1121 is connected with the base seat 11. The second connection end 1122 is connected with the second open side 32 of the main body 3. The flow guide body 12 is disposed at the junction between the base seat 11 and the connection bodies 112.
Please now refer to
The rotor assembly 6 includes a shaft rod 61 and a hub 62. One end of the shaft rod 61 is inserted in the bearing 4 and rotatably connected with the bearing 4. The other end of the shaft rod 61 is connected with the hub 62. The hub 62 has multiple blades 63 disposed on an outer circumference of the hub 62. A magnetic body 64 is annularly arranged on an inner circumference of the hub 62.
Please refer to
The present invention has been described with the above embodiments thereof and it is understood that many changes and modifications in the above embodiments can be carried out without departing from the scope and the spirit of the invention that is intended to be limited only by the appended claims.